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Site of Aerobic Metabolism

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Pyruvate, lactate, products of lipid & amino acid metabolism ... Prime Function: oxidize acetyl groups resulting in ATP formation ... – PowerPoint PPT presentation

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Title: Site of Aerobic Metabolism


1
Site of Aerobic Metabolism
2
Mitochondria
  • Cellular oxidation takes place here
  • Pyruvate, lactate, products of lipid amino acid
    metabolism
  • Oxygen consumed and ADP phosphorylated inside
    mitochondria
  • Mitochondria appear in two places in skeletal
    muscle
  • Subsarcolemmal -Immediately beneath sarcolemma
    in position to receive O2 from arterial
    circulation
  • Intermyofibrillar mitochondria exist among the
    contractile elements

3
Mitochondrion
  • Outer membrane acts as barrier allows small
    molecules to freely move in
  • Inner membrane space contains enzymes for
    exchange transport
  • Cristae (many folds) where oxidative
    phosphorylation occurs

4
Mitochondrion
  • F Complex actual site of phosphorylation
  • F0 stalk
  • F1 ball
  • Matrix contains mitochondrial protein LDH and
    Krebs cycle enzymes

5
Citric Acid Cycle
  • Prime Function oxidize acetyl groups resulting
    in ATP formation
  • Electrons are removed from acetyl groups
    attaches them to NAD or FAD which feed into the
    electron transport chain
  • Carbon atoms of acetyl group are released as CO2
  • Oxidation of acetyl CoA accounts for about two
    thirds of the ATP formation oxygen consumption
    in mammals

6
Krebs Cycle
  • ATP
  • GTP
  • CO2
  • H2
  • H2O

7
Krebs Cycle
8
Regulation of the Citric Acid Cycle
  • High levels of NADH inhibit 3 key reactions
    substrate availiability
  • isocitrate dehydrogenase (rate-limiting enzyme
    (stimulated by ADP)
  • alpha-ketoglutarate dehydrogenase
  • citrate synthase
  • Insulin binding promotes dephosphorylation
    (activation) of pyruvate dehydrogenase (PDH)

9
Pyruvate Dehydrogenase (PDH)
  • Phosphorylation inhibits PDH
  • ATP/ADP, Acetyl-CoA/CoA, and NADH/NAD -- act
    to reduce glycolytic flux to the Krebs Cycle by
    inactivation of PDH
  • Dephosphorylation of PDH activates enzyme as well
    as high Ca, decreases inATP/ADP,
    Acetyl-CoA/CoA, and NADH/NAD


10
Control Regulation of Metabolic Pathways
  • Energy state regulation
  • ATP, ADP levels activate or deactivate regulatory
    enzymes
  • Quick response linked to energy expenditure
  • Hormone amplification
  • Cyclic-AMP levels on inside surfaces of target
    membranes
  • Slower but more persistent and widespread
  • Substrate/Enzyme regulation
  • NADHH builds up, activates lactate dehydrogenase
    converting more pyruvate to LA

11
Enzymatic Regulation of Metabolism
  • Lower the energies of activation
  • Spontaneous reactions to proceed
  • Modulators
  • Stimulators Inhibitors
  • ATP a classic inhibitor
  • ADP, Pi usually stimulators
  • NADH/NAD ratio

12
Enzymatic Regulation
  • Adenine nucleotide charge regulates both
    glycolysis and the Krebs cycle
  • ATP and ADP, respectively, stimulate and inhibit
    the ETC.
  • Small decrements in the adenine energy charge
    activate ATP-yielding systems

13
Hormone Amplification
  • Epi, Glucagon along w/Cortisol - stimulate liver
    to convert a.a. to glucose
  • Insulin and glucose inhibits the above hormones

14
Substrate/Enzyme Regulation
  • Less immediate but powerful effects
  • NADHH build-up occurs during very high energy
    demands
  • Oxidation capacity has been exceeded
  • High energy demands increases rate of pyruvate
    production ---gt increased activity of pyruvate
    dehydrogenase (PDH) which controls entry into
    Krebs cycle

15
Oxidative State Regulation
  • Oxygen availability, deprivation
  • With oxygen available, ADP available, cytochrome
    oxidase (CO) is activated
  • speeds up hydrogen combination w/O2
  • Frees up FAD and NAD while ATP is formed
  • Oxygen low during exercise, CO is inhibited with
    back-up of NADHH and FADH2, ADP
  • Serve as clear signals that Anaerobic glycolysis
    will be predominant supplier of ATP
  • The key determining factor is exercise intensity

16
Comparing the Energy Systems
  • System Max Power Max
    Capacity
  • (moles/min of ATP) (total
    moles of ATP)
  • ATP
    ATP
  • Phosphagen 3.6
    0.7
  • Lactic Acid System 1.6
    1.2
  • Oxygen System 1.0
    90.0
  • (from glucose)

17
Anaerobic Glycolysis
(Lactic Acid System)
  • Per kg muscle
    Total Muscle
  • Max LA (grams) 2.0 - 3.0
    60-70
  • ATP Formation (mM) 33 - 38 1000-1200
  • Useful Energy (kcal) .33 - .38 10
    - 12
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